Abstract 1663: Identification and characterization of a small-molecule inhibitor of the human uracil-DNA glycosylase for use in combination with DNA damage-based anticancer therapies

Abstract

Abstract Our research aims to develop therapeutically active inhibitors of the human uracil-DNA glycosylase (UNG). UNG, a highly conserved enzyme, plays a pivotal role in preventing abnormal bases, uracil and 5-fluorouracil, from incorporation into DNA as a result of treatment with chemotherapeutic drugs, floxuridine (5-FdU) and pemetrexed (PEM). Our previous publication reports that the depletion of UNG by shRNA causes uracil and 5-FU incorporation into DNA following 5-FdU or PEM exposure, and highly sensitizes certain human cancer cells to these chemotherapeutic drugs. These data suggest that UNG specific inhibitors could improve the anticancer effect of 5-FdU or PEM. However, a few known inhibitors have not been shown to function at therapeutic concentrations in human cells. Therefore, in order to identify a novel, small-molecule compound targeting the human UNG enzymatic activity, we have previously optimized a biochemically high-throughput screening (HTS) assay that measures the removal of uracil from a DNA hairpin based on the un-quenching of fluorescence. This assay has been successfully employed in a pharmacologically active compound collection screen (>3,000 small-molecules+ approved drugs). In 384-well plate runs using control wells in which enzyme is not added, the average assay provides signal to background ratios of 3.0 to 4.0. Typical Z factors range from 0.6-0.7, indicating a robust assay. We have identified five bioactive compounds with IC50 values < 1uM and have selected a nanoMolar inhibitor of the human UNG enzyme termed, UNGi-A. By using an in vitro DNA glycosylase activity assay, this compound displays a significant inhibitory activity towards the purified human UNG enzyme over time, in a dose-dependent manner. Further characterization shows a significant effect of this inhibitor on UNG activity in cellular extract that expresses endogenous UNG from DLD1 human colon cancer cell line. The result suggests that UNGi-A compound diminishes UNG activity in cell extracts. In addition, thermal shift assay (TSA) data suggest that UNGi-A binds directly to the human UNG enzyme. Together, this compound shows potential activity that blocks the human UNG activity and we are currently evaluating the effect of UNGi-A in combination with 5-FdU on UNG activity in human cancer cells. Citation Format: Mya T. Nguyen, Yan Yan, Yuriy Fedorvo, John Pink, Drew Adams, Stanton Gerson. Identification and characterization of a small-molecule inhibitor of the human uracil-DNA glycosylase for use in combination with DNA damage-based anticancer therapies [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 1663.